LCD projection systems that use reflective LCD imager units commonly use one or more polarization beamsplitters to separate the light incident on the imager from the light reflected by one or more respective imagers. The polarizing beamsplitters can be mounted onto a color combiner using an index matching layer and optical adhesive.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An optical element, comprising: a color combiner; a polarizing beamsplitter comprising a prism; an index matching layer disposed on a surface of the prism of the polarizing beamsplitter; an optical adhesive layer disposed between the index matching layer and a surface of the color combiner to mount the polarizing beamsplitter onto the color combiner; and wherein the color combiner has an index of refraction, n 1 ; the prism of the polarizing beamsplitter has an index of refraction, n 2 ; and the index matching layer has an index of refraction, n 3 , wherein n 3 is within ±4% of (n 1 *n 2 ) 1/2 .
2. The optical element of claim 1 , further comprising a polarization rotating element disposed between the optical adhesive layer and the color combiner; and a second optical adhesive layer disposed between the polarization rotating element and the color combiner.
3. The optical element of claim 2 , wherein the polarization rotating element comprises a half-wave retardation plate.
4. The optical element of claim 1 , wherein the optical element comprises at least two polarizing beamsplitters with individual index matching layers and optical adhesive layers associated with each of the polarizing beamsplitters to mount each polarizing beamsplitter to a different surface of the color combiner.
5. The optical element of claim 1 , further comprising a second polarizing beamsplitter comprising a prism; a second index matching layer disposed on a surface of the prism of the second polarizing beamsplitter; a second optical adhesive layer disposed between the second index matching layer and a second surface of the color combiner to mount the second polarizing beamsplitter onto the color combiner; and a third polarizing beamsplitter comprising a prism; a third index matching layer disposed on a surface of the prism of the third polarizing beamsplitter; and a third optical adhesive layer disposed between the third index matching layer and a third surface of the color combiner to mount the third polarizing beamsplitter onto the color combiner.
6. The optical element of claim 5 , further comprising a first polarization rotating element disposed between the second optical adhesive layer and the color combiner; a fourth optical adhesive layer disposed between the first polarization rotating element and the color combiner; a second polarization rotating element disposed between the third optical adhesive layer and the color combiner; and a fifth optical adhesive layer disposed between the second polarization rotating element and the color combiner.
7. The optical element of claim 1 , wherein n 3 is within ±2% of (n 1 *n 2 ) 1/2 .
8. The optical element of claim 1 , wherein n 3 is equal to (n 1 *n 2 ) 12 .
9. A projection system comprising the optical element of claim 1 .
10. A method of making an optical element, the method comprising: disposing an index matching layer on a surface of a prism of a polarizing beamsplitter; mounting the polarizing beamsplitter onto a color combiner with an optical adhesive layer between the index matching layer and a surface of the color combiner; and wherein the color combiner has an index of refraction, n 1 ; the prism of the polarizing beamsplitter has an index of refraction, n 2 ; and the index matching layer has an index of refraction, n 3 , wherein n 3 is within ±4% of (n 1 *n 2 ) 1/2 .
11. The method of claim 10 , further comprising mounting a polarization rotating element between the adhesive layer and the color combiner using a second optical adhesive layer between the polarization rotating element and the color combiner.
12. The method of claim 11 , wherein the polarization rotating element comprises a half-wave retardation plate.
13. The method of claim 10 , further comprises repeating the disposing and mounting steps to mount at least one additional polarizing beamsplitter onto the color combiner.
14. The method of claim 10 , further comprising disposing a second index matching layer on a surface of a prism of a second polarizing beamsplitter; mounting the second polarizing beamsplitter onto the color combiner with a second optical adhesive layer between the second index matching layer and a second surface of the color combiner; disposing a third index matching layer on a surface of a prism of a third polarizing beamsplitter; and mounting the third polarizing beamsplitter onto the color combiner with a third optical adhesive layer between the third index matching layer and a third surface of the color combiner.
15. The method of claim 14 , further comprising mounting a first polarization rotating element between the second adhesive layer and the color combiner using a fourth optical adhesive layer between the first polarization rotating element and the color combiner; and mounting a second polarization rotating element between the third adhesive layer and the color combiner using a fifth optical adhesive layer between the second polarization rotating element and the color combiner.
16. The method of claim 1 , wherein n 3 is within ±2% of (n 1 *n 2 ) 1/2 .
17. The method of claim 1 , wherein n 3 is equal to (n 1 *n 2 ) 1/2 .
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
January 8, 2003
December 5, 2006
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.